Proteome-wide mapping of the Drosophila acetylome demonstrates a high degree of conservation of lysine acetylation

Brian T Weinert, Sebastian A Wagner, Heiko Horn, Peter Henriksen, Wenshe R Liu, Jesper V Olsen, Lars J Jensen, Chuna Ram Choudhary

187 Citationer (Scopus)

Abstract

Posttranslational modification of proteins by acetylation and phosphorylation regulates most cellular processes in living organisms. Surprisingly, the evolutionary conservation of phosphorylated serine and threonine residues is only marginally higher than that of unmodified serines and threonines. With high-resolution mass spectrometry, we identified 1981 lysine acetylation sites in the proteome of Drosophila melanogaster. We used data sets of experimentally identified acetylation and phosphorylation sites in Drosophila and humans to analyze the evolutionary conservation of these modification sites between flies and humans. Site-level conservation analysis revealed that acetylation sites are highly conserved, significantly more so than phosphorylation sites. Furthermore, comparison of lysine conservation in Drosophila and humans with that in nematodes and zebrafish revealed that acetylated lysines were significantly more conserved than were nonacetylated lysines. Bioinformatics analysis using Gene Ontology terms suggested that the proteins with conserved acetylation control cellular processes such as protein translation, protein folding, DNA packaging, and mitochondrial metabolism. We found that acetylation of ubiquitin-conjugating E2 enzymes was evolutionarily conserved, and mutation of a conserved acetylation site impaired the function of the human E2 enzyme UBE2D3. This systems-level analysis of comparative posttranslational modification showed that acetylation is an anciently conserved modification and suggests that phosphorylation sites may have evolved faster than acetylation sites.
OriginalsprogEngelsk
TidsskriftScience Signaling
Vol/bind4
Udgave nummer183
Sider (fra-til)ra48
ISSN1945-0877
DOI
StatusUdgivet - 26 jul. 2011

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